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LNP™ VERTON™ Compound RV00CEXP

LNP™ VERTON™ Compound RV00CEXP combines Polyamide 66 (nylon 66) resin with 60% long glass fiber, offering superior structural performance and ease of molding. This compound is engineered for applications requiring high mechanical strength and dimensional stability. It excels in environments where durability and reliability are critical, making it suitable for automotive components, electrical enclosures, and industrial machinery parts. The inclusion of long glass fiber enhances stiffness and impact resistance, ensuring robust performance under demanding conditions. LNP™ VERTON™ Compound RV00CEXP enables efficient manufacturing processes due to its excellent flow properties during injection molding, allowing for intricate and complex part geometries. Manufacturers benefit from its ability to maintain consistent quality and achieve high productivity while meeting stringent performance standards.

Brand: LNP™ VERTON™ Compound (48 products)

Polymer Name: Polyamide 66 (PA 66)

Processing Methods: Injection Molding

Fillers Included: Glass Fiber

Technical Data Sheet

Enhanced TDS

Knowde-enriched technical product data sheet

Identification & Functionality

Chemical Family
Polyamides
Fillers Included
Glass Fiber
Polymer Name
Polyamide 66 (PA 66)
Plastics & Elastomers Functions
Resin
Technologies
Plastics
Product Families
Plastics — Engineering & Specialty Polymers
Polyamides

Features & Benefits

Labeling Claims
No Added PFAS
Materials Features
Easy To Mold,
Good Processability,
High Stiffness,
High Strength

Applications & Uses

Markets
Automotive & Transportation,
Building & Construction,
Consumer Goods,
Electrical & Electronics
Applications
Consumer Goods — Appliances & Electronics
Automotive & Transportation — Automotive
Exterior & Body
Building & Construction — Building Materials
Structural Components
Electrical & Electronics — Devices & Assemblies
Industrial Automation
Consumer Goods — Sports & Recreation
Plastics & Elastomers End Uses
Automotive Exterior Parts,
Building Materials,
Commercial Appliance,
Home Appliances,
Sporting Goods
Plastics & Elastomers Processing Methods
Injection Molding

Properties

Mechanical Properties
ValueUnitsTest Method / Conditions
Tensile Stress (Break, 5 mm/min) ¹270.0MPaISO 527
Tensile Strain (Break, 5 mm/min) ¹1.7%ISO 527
Tensile Modulus (at 1 mm/min) ¹21600.0MPaISO 527
Flexural Stress (Break, 2 mm/min) ¹430.0MPaISO 178
Flexural Strain (Break, 2 mm/min) ¹2.6%ISO 178
Flexural Modulus (at 2 mm/min) ¹19000.0MPaISO 178
Physical Properties
ValueUnitsTest Method / Conditions
Mold Shrinkage (flow) ²0.26%SABIC method
Mold Shrinkage (xflow) ²0.61%SABIC method
Density ¹1.71g/cm³ISO 1183
Water Absorption (23°C/24hrs) ¹0.9%ISO 62-1
Moisture Absorption (23°C / 50% RH) ¹1.1%ISO 62
Thermal Properties
ValueUnitsTest Method / Conditions
Coefficient of Thermal Expansion (at 23°C to 60°C, flow) ¹1.7e-051/°CISO 11359-2
Coefficient of Thermal Expansion (at 23°C to 60°C, xflow) ¹5.3e-051/°CISO 11359-2
Heat Deflection Temperature/Bf (0.45 MPa Flatw 80*10*4 sp=64mm) ¹255.0°CISO 75/Bf
Heat Deflection Temperature/Af (1.8 MPa Flatw 80*10*4 sp=64mm) ¹252.0°CISO 75/Af
Impact Properties
ValueUnitsTest Method / Conditions
Izod Impact (Unnotched 80*10*4 +23°C) ¹100.0kJ/m²ISO 180/1U
Izod Impact (Notched 80*10*4 +23°C) ¹53.0kJ/m²ISO 180/1A
Izod Impact (Notched 80*10*4 -40°C) ¹43.0kJ/m²ISO 180/1A
Injection Molding
ValueUnitsTest Method / Conditions
Drying Temperature ³80.0°C-
Drying Time ³4.0Hrs-
Maximum Moisture Content ³0.15 - 0.25%-
Melt Temperature ³290 - 305°C-
Front - Zone 3 Temperature ³290 - 300°C-
Middle - Zone 2 Temperature ³290 - 300°C-
Rear - Zone 1 Temperature ³280 - 295°C-
Mold Temperature ³95 - 110°C-
Back Pressure ³0.2 - 0.3MPa-
Screw Speed ³30 - 60rpm-
Note

(1) The information stated on Technical Datasheets should be used as indicative only for material selection purposes and not be utilized as specification or used for part or tool design.
(2) Measurements made from laboratory test coupon. Actual shrinkage may vary outside of range due to differences in processing conditions, equipment, part geometry and tool design. It is recommended that mold shrinkage studies be performed with surrogate or legacy tooling prior to cutting tools for new molded article.
(3) Injection Molding parameters are only mentioned as general guidelines. These may not apply or may need adjustment in specific situations such as low shot sizes, large part molding, thin wall molding and gas-assist molding.